/*   Copyright (C) 2011 Wolfgang Hankeln, Norma J. Wendel
 *
 *   This file is part of CDinFusion.
 *
 *   CDinFusion is free software: you can redistribute it and/or
 *   modify it under the terms of the GNU Lesser General Public 
 *   License in version 3 (LGPL3) as published by the Free Software
 *   Foundation version 3 of the License.
 *
 *   CDinFusion is distributed in the hope that it will be useful,
 *   but WITHOUT ANY WARRANTY; without even the implied warranty of
 *   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
 *   Lesser General Public License for more details.
 *
 *   You should have received a copy of the Lesser General Public
 *   License along with CDinFusion; see the file COPYING. If not,
 *   write to the Free Software Foundation, 59 Temple Place - Suite 330,
 *   Boston, MA 02111-1307, USA or see <http://www.gnu.org/licenses/>.
 *   
 *   If you have any questions, send an email to: megx@mpi-bremen.de.
 */
package org.cdinfusion.data.studytype;

public class MIMARKS_S implements StudyType {

	private String adapters;

	private String biome;

	private String depth;

	private String feature;

	private String geo_loc_name;

	private String lib_const_meth;

	private String material;

	private String project_name;

	private String samp_size;

	private String submitted_to_insdc;

	private String lat_lon;

	private String collection_date;

	private String alt_elev;
	
	private int lib_size;

	private String seq_meth;

	private String assembly;

	private int lib_reads_seqd;

	private String lib_vector;

	private String nucl_acid_amp;

	private String lib_screen;

	private String nucl_acid_ext;

	private String samp_mat_process;

	private String seq_quality_check;

	private String sop;

	private String url;

	private String experimental_factor;

	private String rel_to_oxygen;

	private String samp_collect_device;

	private String target_gene;

	private String target_subfragment;

	private String pcr_primers;

	private String chimera_check;

	private String pcr_cond;

	private String mid;

	public String getAlt_elev() {
		return alt_elev;
	}

	public void setAlt_elev(String alt_elev) {
		this.alt_elev = alt_elev;
	}

	public int getLib_size() {
		return lib_size;
	}

	public void setLib_size(int lib_size) {
		this.lib_size = lib_size;
	}

	public String getSeq_meth() {
		return seq_meth;
	}

	public void setSeq_meth(String sequencing_meth) {
		this.seq_meth = sequencing_meth;
	}

	public String getAssembly() {
		return assembly;
	}

	public void setAssembly(String assembly) {
		this.assembly = assembly;
	}

	public int getLib_reads_seqd() {
		return lib_reads_seqd;
	}

	public void setLib_reads_seqd(int lib_reads_seqd) {
		this.lib_reads_seqd = lib_reads_seqd;
	}

	public String getLib_vector() {
		return lib_vector;
	}

	public void setLib_vector(String lib_vector) {
		this.lib_vector = lib_vector;
	}

	public String getNucl_acid_amp() {
		return nucl_acid_amp;
	}

	public void setNucl_acid_amp(String nucl_acid_amp) {
		this.nucl_acid_amp = nucl_acid_amp;
	}

	public String getLib_screen() {
		return lib_screen;
	}

	public void setLib_screen(String lib_screen) {
		this.lib_screen = lib_screen;
	}

	public String getNucl_acid_ext() {
		return nucl_acid_ext;
	}

	public void setNucl_acid_ext(String nucl_acid_ext) {
		this.nucl_acid_ext = nucl_acid_ext;
	}

	public String getSamp_mat_process() {
		return samp_mat_process;
	}

	public void setSamp_mat_process(String samp_mat_process) {
		this.samp_mat_process = samp_mat_process;
	}

	public String getSeq_quality_check() {
		return seq_quality_check;
	}

	public void setSeq_quality_check(String seq_quality_check) {
		this.seq_quality_check = seq_quality_check;
	}

	public String getSop() {
		return sop;
	}

	public void setSop(String sop) {
		this.sop = sop;
	}

	public String getUrl() {
		return url;
	}

	public void setUrl(String url) {
		this.url = url;
	}

	public String getExperimental_factor() {
		return experimental_factor;
	}

	public void setExperimental_factor(String experimental_factor) {
		this.experimental_factor = experimental_factor;
	}

	public String getRel_to_oxygen() {
		return rel_to_oxygen;
	}

	public void setRel_to_oxygen(String rel_to_oxygen) {
		this.rel_to_oxygen = rel_to_oxygen;
	}

	public String getSamp_collect_device() {
		return samp_collect_device;
	}

	public void setSamp_collect_device(String samp_collect_device) {
		this.samp_collect_device = samp_collect_device;
	}

	public String getTarget_gene() {
		return target_gene;
	}

	public void setTarget_gene(String target_gene) {
		this.target_gene = target_gene;
	}

	public String getTarget_subfragment() {
		return target_subfragment;
	}

	public void setTarget_subfragment(String target_subfragment) {
		this.target_subfragment = target_subfragment;
	}

	public String getPcr_primers() {
		return pcr_primers;
	}

	public void setPcr_primers(String pcr_primers) {
		this.pcr_primers = pcr_primers;
	}

	public String getChimera_check() {
		return chimera_check;
	}

	public void setChimera_check(String chimera_check) {
		this.chimera_check = chimera_check;
	}

	public String getPcr_cond() {
		return pcr_cond;
	}

	public void setPcr_cond(String pcr_cond) {
		this.pcr_cond = pcr_cond;
	}

	public String getMid() {
		return mid;
	}

	public void setMid(String multiplex_ident) {
		this.mid = multiplex_ident;
	}

	public String getLat_lon() {
		return lat_lon;
	}

	public void setLat_lon(String lat_lon) {
		this.lat_lon = lat_lon;
	}

	public String getCollection_date() {
		return collection_date;
	}

	public void setCollection_date(String collection_date) {
		this.collection_date = collection_date;
	}

	public String getAdapters() {
		return adapters;
	}

	public void setAdapters(String adapters) {
		this.adapters = adapters;
	}

	public String getBiome() {
		return biome;
	}

	public void setBiome(String biome) {
		this.biome = biome;
	}

	public String getDepth() {
		return depth;
	}

	public void setDepth(String depth) {
		this.depth = depth;
	}

	public String getFeature() {
		return feature;
	}

	public void setFeature(String feature) {
		this.feature = feature;
	}

	public String getGeo_loc_name() {
		return geo_loc_name;
	}

	public void setGeo_loc_name(String geo_loc_name) {
		this.geo_loc_name = geo_loc_name;
	}

	public String getLib_const_meth() {
		return lib_const_meth;
	}

	public void setLib_const_meth(String lib_const_meth) {
		this.lib_const_meth = lib_const_meth;
	}

	public String getMaterial() {
		return material;
	}

	public void setMaterial(String material) {
		this.material = material;
	}

	public String getProject_name() {
		return project_name;
	}

	public void setProject_name(String project_name) {
		this.project_name = project_name;
	}

	public String getSamp_size() {
		return samp_size;
	}

	public void setSamp_size(String samp_size) {
		this.samp_size = samp_size;
	}

	public String getSubmitted_to_insdc() {
		return submitted_to_insdc;
	}

	public void setSubmitted_to_insdc(String submitted_to_insdc) {
		this.submitted_to_insdc = submitted_to_insdc;
	}

	public MIMARKS_S(String adapters, String biome, String depth,
			String feature, String geo_loc_name, String lib_const_meth,
			String material, String project_name, String samp_size,
			String submitted_to_insdc, String lat_lon, String collection_date,
			String alt_elev, int lib_size, String seq_meth, String assembly,
			int lib_reads_seqd, String lib_vector, String nucl_acid_amp,
			String lib_screen, String nucl_acid_ext, String samp_mat_process,
			String seq_quality_check, String sop, String url,
			String experimental_factor, String rel_to_oxygen,
			String samp_collect_device, String target_gene,
			String target_subfragment, String pcr_primers,
			String chimera_check, String pcr_cond, String mid) {
		super();
		this.adapters = adapters;
		this.biome = biome;
		this.depth = depth;
		this.feature = feature;
		this.geo_loc_name = geo_loc_name;
		this.lib_const_meth = lib_const_meth;
		this.material = material;
		this.project_name = project_name;
		this.samp_size = samp_size;
		this.submitted_to_insdc = submitted_to_insdc;
		this.lat_lon = lat_lon;
		this.collection_date = collection_date;
		this.alt_elev = alt_elev;
		this.lib_size = lib_size;
		this.seq_meth = seq_meth;
		this.assembly = assembly;
		this.lib_reads_seqd = lib_reads_seqd;
		this.lib_vector = lib_vector;
		this.nucl_acid_amp = nucl_acid_amp;
		this.lib_screen = lib_screen;
		this.nucl_acid_ext = nucl_acid_ext;
		this.samp_mat_process = samp_mat_process;
		this.seq_quality_check = seq_quality_check;
		this.sop = sop;
		this.url = url;
		this.experimental_factor = experimental_factor;
		this.rel_to_oxygen = rel_to_oxygen;
		this.samp_collect_device = samp_collect_device;
		this.target_gene = target_gene;
		this.target_subfragment = target_subfragment;
		this.pcr_primers = pcr_primers;
		this.chimera_check = chimera_check;
		this.pcr_cond = pcr_cond;
		this.mid = mid;
	}

	public MIMARKS_S() {
		super();
	}
}